=head1 SYNOPSIS
-See L<Catalyst>.
+ # root action - captures one argument after it
+ sub foo_setup : Chained('/') PathPart('foo') CaptureArgs(1) {
+ my ( $self, $c, $foo_arg ) = @_;
+ ...
+ }
+
+ # child action endpoint - takes one argument
+ sub bar : Chained('foo_setup') Args(1) {
+ my ( $self, $c, $bar_arg ) = @_;
+ ...
+ }
=head1 DESCRIPTION
+See L</USAGE>.
+
=head1 METHODS
=head2 $self->list($c)
=head2 $self->match( $c, $path )
-Matt is an idiot and hasn't documented this yet.
+Calls C<recurse_match> to see if a chain matches the C<$path>.
=cut
=head2 $self->recurse_match( $c, $parent, \@path_parts )
-Matt is an idiot and hasn't documented this yet.
+Recursive search for a matching chain.
=cut
=head2 $self->register( $c, $action )
-Matt is an idiot and hasn't documented this yet.
+Calls register_path for every Path attribute for the given $action.
=cut
=head2 $self->uri_for_action($action, $captures)
-Matt is an idiot and hasn't documented this yet.
+Get the URI part for the action, using C<$captures> to fill
+the capturing parts.
=cut
}
+=head1 USAGE
+
+=head2 Introduction
+
+The C<Chained> attribute allows you to chain public path parts together
+by their private names. A chain part's path can be specified with C<PathPart>
+and can be declared to expect an arbitrary number of arguments. The endpoint
+of the chain specifies how many arguments it gets through the C<Args>
+attribute. C<:Args(0)> would be none at all, C<:Args> without an integer
+would be unlimited. The path parts that aren't endpoints are using
+C<CaptureArgs> to specify how many parameters they expect to receive. As an
+example setup:
+
+ package MyApp::Controller::Greeting;
+ use base qw/ Catalyst::Controller /;
+
+ # this is the beginning of our chain
+ sub hello : PathPart('hello') Chained('/') CaptureArgs(1) {
+ my ( $self, $c, $integer ) = @_;
+ $c->stash->{ message } = "Hello ";
+ $c->stash->{ arg_sum } = $integer;
+ }
+
+ # this is our endpoint, because it has no :CaptureArgs
+ sub world : PathPart('world') Chained('hello') Args(1) {
+ my ( $self, $c, $integer ) = @_;
+ $c->stash->{ message } .= "World!";
+ $c->stash->{ arg_sum } += $integer;
+
+ $c->response->body( join "<br/>\n" =>
+ $c->stash->{ message }, $c->stash->{ arg_sum } );
+ }
+
+The debug output provides a separate table for chained actions, showing
+the whole chain as it would match and the actions it contains. Here's
+an example of the startup output with our actions above:
+
+ ...
+ [debug] Loaded Path Part actions:
+ .-----------------------+------------------------------.
+ | Path Spec | Private |
+ +-----------------------+------------------------------+
+ | /hello/*/world/* | /greeting/hello (1) |
+ | | => /greeting/world |
+ '-----------------------+------------------------------'
+ ...
+
+As you can see, Catalyst only deals with chains as whole path and
+builds one for each endpoint, which are the actions with C<:Chained>
+but without C<:CaptureArgs>.
+
+Let's assume this application gets a request at the path
+C</hello/23/world/12>, what happens then? First, Catalyst will dispatch
+to the C<hello> action and pass the value C<23> as argument to it after
+the context. It does so because we have previously used C<:CaptureArgs(1)>
+to declare that it has one path part after itself as it's argument. We
+told Catalyst that this is the beginning of the chain by specifying
+C<:Chained('/')>. Also note that instead of saying C<:PathPart('hello')>
+we could also just have said C<:PathPart>, as it defaults to the name of
+the action.
+
+After C<hello> has run, Catalyst goes on to dispatch to the C<world>
+action. This is the last action to be called, as Catalyst knows this
+is an endpoint because we specified no C<:CaptureArgs> attribute. Nevertheless
+we specify that this action expects an argument, but at this point we're
+using C<:Args(1)> to do that. We could also have said C<:Args> or leave
+it out alltogether, which would mean this action gets all arguments that
+are there. This action's C<:Chained> attribute says C<hello> and tells
+Catalyst that the C<hello> action in the current controller is it's
+parent.
+
+With this we have built a chain consisting of two public path parts.
+C<hello> captures one part of the path as it's argument, and also specifies
+the path root as it's parent. So this part is C</hello/$arg>. The next part
+is the endpoint C<world>, expecting one argument. It sums up to the path
+part C<world/$arg>. This leads to a complete chain of
+C</hello/$arg/world/$arg> which is matched against the requested paths.
+
+This example application would, if run and called by e.g.
+C</hello/23/world/12>, set the stash value C<message> to C<Hello > and
+the value C<arg_sum> to C<23>. The C<world> action would then append
+C<World!> to C<message> and add C<12> to the stash's C<arg_sum> value.
+For the sake of simplicity no view is shown. Instead we just put the
+values of the stash into our body. So the output would look like:
+
+ Hello World!
+ 35
+
+And our test server would've given us this debugging output for the
+request:
+
+ ...
+ [debug] "GET" request for "hello/23/world/12" from "127.0.0.1"
+ [debug] Path is "/greeting/world"
+ [debug] Arguments are "12"
+ [info] Request took 0.164113s (6.093/s)
+ .------------------------------------------+-----------.
+ | Action | Time |
+ +------------------------------------------+-----------+
+ | /greeting/hello | 0.000029s |
+ | /greeting/world | 0.000024s |
+ '------------------------------------------+-----------'
+ ...
+
+What would be common usecases of this dispatching technique? It gives the
+possibility to split up logic that contains steps that each depend on each
+other. An example would be, for example, a wiki path like
+C</wiki/FooBarPage/rev/23/view>. This chain can be easily built with
+these actions:
+
+ sub wiki : PathPart('wiki') Chained('/') CaptureArgs(1) {
+ my ( $self, $c, $page_name ) = @_;
+ # load the page named $page_name and put the object
+ # into the stash
+ }
+
+ sub rev : PathPart('rev') Chained('wiki') CaptureArgs(1) {
+ my ( $self, $c, $revision_id ) = @_;
+ # use the page object in the stash to get at it's
+ # revision with number $revision_id
+ }
+
+ sub view : PathPart Chained('rev') Args(0) {
+ my ( $self, $c ) = @_;
+ # display the revision in our stash. An other option
+ # would be to forward a compatible object to the action
+ # that displays the default wiki pages, unless we want
+ # a different interface here, for example restore
+ # functionality.
+ }
+
+It would now be possible to add other endpoints. For example C<restore> to
+restore this specific revision as current state.
+
+Also, you of course don't have to put all the chained actions in one
+controller. The specification of the parent through C<:Chained> also takes
+an absolute action path as it's argument. Just specify it with a leading
+C</>.
+
+If you want, for example, to have actions for the public paths
+C</foo/12/edit> and C</foo/12>, just specify two actions with
+C<:PathPart('foo')> and C<:Chained('/')>. The handler for the former
+path needs a C<:CaptureArgs(1)> attribute and a endpoint with
+C<:PathPart('edit')> and C<:Chained('foo')>. For the latter path give
+the action just a C<:Args(1)> to mark it as endpoint. This sums up to
+this debugging output:
+
+ ...
+ [debug] Loaded Path Part actions:
+ .-----------------------+------------------------------.
+ | Path Spec | Private |
+ +-----------------------+------------------------------+
+ | /foo/* | /controller/foo_view |
+ | /foo/*/edit | /controller/foo_load (1) |
+ | | => /controller/edit |
+ '-----------------------+------------------------------'
+ ...
+
+Here's a more detailed specification of the attributes belonging to
+C<:Chained>:
+
+=head2 Attributes
+
+=over 8
+
+=item PathPart
+
+Sets the name of this part of the chain. If it is specified without
+arguments, it takes the name of the action as default. So basically
+C<sub foo :PathPart> and C<sub foo :PathPart('foo')> are identical.
+This can also contain slashes to bind to a deeper level. An action
+with C<sub bar :PathPart('foo/bar') :Chained('/')> would bind to
+C</foo/bar/...>. If you don't specify C<:PathPart> it has the same
+effect as using C<:PathPart>, it would default to the action name.
+
+=item Chained
+
+Has to be specified for every child in the chain. Possible values are
+absolute and relative private action paths, with the relatives pointing
+to the current controller, or a single slash C</> to tell Catalyst that
+this is the root of a chain. The attribute C<:Chained> without aguments
+also defaults to the C</> behaviour.
+
+Due to the fact that you can specify an absolute path to the parent
+action, it doesn't matter to Catalyst where that parent is located. So,
+if your design requests it, you can redispatch a chain through every
+controller or namespace you want.
+
+Another interesting possibility gives C<:Chained('.')>, which chains
+itself to an action with the path of the current controllers namespace.
+For example:
+
+ # in MyApp::Controller::Foo
+ sub bar : Chained CaptureArgs(1) { ... }
+
+ # in MyApp::Controller::Foo::Bar
+ sub baz : Chained('.') Args(1) { ... }
+
+This builds up a chain like C</bar/*/baz/*>. The specification of C<.>
+as argument to Chained here chains the C<baz> action to an action with
+the path of the current controller namespace, namely C</foo/bar>. That
+action chains directly to C</>, so the above chain comes out as end
+product.
+
+=item CaptureArgs
+
+Also has to be specified for every part of the chain that is not an
+endpoint. With this attribute Catalyst knows how many of the following
+parts of the path (separated by C</>) this action wants to captures as
+it's arguments. If it doesn't expect any, just specify C<:CaptureArgs(0)>.
+The captures get passed to the action's C<@_> right after the context,
+but you can also find them as array reference in
+C<$c-E<gt>request-E<gt>captures-E<gt>[$level]>. The C<$level> is the
+level of the action in the chain that captured the parts of the path.
+
+An action that is part of a chain (read: that has a C<:Chained> attribute)
+but has no C<:CaptureArgs> attribute is treated by Catalyst as a chain end.
+
+=item Args
+
+By default, endpoints receive the rest of the arguments in the path. You
+can tell Catalyst through C<:Args> explicitly how many arguments your
+endpoint expects, just like you can with C<:CaptureArgs>. Note that this
+also influences if this chain is invoked on a request. A chain with an
+endpoint specifying one argument will only match if exactly one argument
+exists in the path.
+
+You can specify an exact number of arguments like C<:Args(3)>, including
+C<0>. If you just say C<:Args> without any arguments, it is the same as
+leaving it out alltogether: The chain is matched independent of the number
+of path parts after the endpoint.
+
+Just like with C<:CaptureArgs>, the arguments get passed to the action in
+C<@_> after the context object. They can also be reached through
+C<$c-E<gt>request-E<gt>arguments>.
+
+=back
+
+=head2 auto actions, dispatching and forwarding
+
+Note that the list of C<auto> actions called depends on the private path
+of the endpoint of the chain, not on the chained actions way. The C<auto>
+actions will be run before the chain dispatching begins. In every other
+aspect, C<auto> actions behave as documented.
+
+The C<forward>ing to other actions does just what you would expect. But if
+you C<detach> out of a chain, the rest of the chain will not get called
+after the C<detach> returned.
+
=head1 AUTHOR
Matt S Trout <mst@shadowcatsystems.co.uk>